The present disclosure relates to a sensor cleaning device (1) for cleaning an external vehicle sensor device from above, the sensor cleaning device comprising, a liquid inlet (10) for receiving pressurized liquid, a first and a second liquid outlet (11, 12) for emitting pressurized liquid which is received from the liquid inlet (10), a chamber (13) for pressurized liquid fluidly connecting the liquid inlet (10) and the first and second liquid outlets (11, 12), wherein each one of the first and second liquid outlets is having a width and a length, wherein the length extends in a length direction (L1, L2) and the width extends in a width direction (w1, w2), wherein the length direction is perpendicular to the width direction, and wherein the first and second liquid outlets (11, 12) are configured so that pressurized liquid is emitted transversely through a sectional plane defined by the width direction and the length direction, wherein, the length is greater than the width for each first and second liquid outlet so that a first and second line-shaped liquid outlet (11, 12) is formed, and the first and second line-shaped liquid outlets (11, 12) are further configured so that emitted pressurized liquid therefrom during use impinge each other, thereby forming a resulting sheet of liquid (LS).

The disclosure concerns a spray bottle assembly for use with an atomized-spray dispensing device. The spray bottle assembly generally includes a bottle containing an amount of cosmetic composition, a release mechanism having a port associated therewith, an insert with an insert lumen configured to engage the port for communicating the cosmetic composition therethrough, a nozzle for configuring a stream of the cosmetic composition expelled from the spray bottle assembly, a mixing chamber for mixing compressed air with the stream of the cosmetic composition, and a spray aperture for communicating atomized spray. The spray bottle assembly is designed for use with equipment having corresponding release elements for engaging the insert and release mechanism of the bottle.

In a spraying process for coating a substrate with a substance atomised in a stream of gas, a spray head is used to generate a stream of gas that acts upon the substrate. The substance is present in a syringe-like application container equipped with an application tip. The application tip of the application container containing the substance is introduced into the stream of gas outside the spray head at a distance therefrom and transversely with respect to the main direction of flow of the stream of gas, and the substance is introduced from the application container into the stream of gas at that location.

The disclosure concerns a device for dispensing an atomized spray of a cosmetic composition. The device is capable of individual or commercial use, and provides yaw and pitch actuation of an operational head, along with the atomized spray to deliver the cosmetic composition to the body of a user. Electronics are configured to acquire data from a disposable spray bottle assembly, and approximate remaining volume or spray time according to the data. A linear laser provides guidance to the user for standing in order to receive optimal spray coverage.

A fluid atomizer comprising a body having a front surface, a rear surface and a body axis extending from the front to rear surfaces. The body comprises a first fluid outlet disposed in the front surface of the body, a first fluid inlet, and a first fluid passageway connecting the first fluid inlet with the first fluid outlet. The first fluid outlet defines an arcuate slit. The body further comprises a second fluid outlet disposed in the front surface of the body, a second fluid inlet, and a second fluid passageway connecting the second fluid inlet with the second fluid outlet. A shelf having an attraction surface protrudes from the front surface of the body. The second fluid outlet is located between the first fluid outlet and the shelf. The atomizer can be used in apparatus and methods utilizing atomized fluid.

A mister apparatus includes a portable mister body having an air inlet and an air outlet, a fan configured to draw air in through the air inlet and force the air out the air outlet, a reservoir configured to contain a liquid, the reservoir having a reservoir outlet, a liquid outlet, the liquid outlet being disposed adjacent to or downstream of the air outlet, and a pump in fluid communication with the reservoir. The pump is operable to move the liquid from the reservoir and out of the liquid outlet such that the liquid exiting the liquid outlet enters into the air exiting the air outlet to form a mist.

The disclosure concerns a spray bottle assembly for use with an atomized-spray dispensing device. The spray bottle assembly generally includes a bottle containing an amount of cosmetic composition, a release mechanism having a port associated therewith, an insert with an insert lumen configured to engage the port for communicating the cosmetic composition therethrough, a nozzle for configuring a stream of the cosmetic composition expelled from the spray bottle assembly, a mixing chamber for mixing compressed air with the stream of the cosmetic composition, and a spray aperture for communicating atomized spray. The spray bottle assembly is designed for use with equipment having corresponding release elements for engaging the insert and release mechanism of the bottle.

A nucleation nozzle for forming freezing nuclei for devices for making artificial snow, starting from a jet of pressurised liquid, comprising a compressed air duct having an inlet opening and an outlet opening. A first stretch of the compressed air duct has a cross section which decreases in the flow direction of the compressed air, from the inlet opening to the outlet opening. The first stretch is followed by a second stretch having a cross section which increases in the flow direction of the compressed air from the inlet opening to the outlet opening. There is provided at least one water duct having an inlet opening and an outlet opening. The water duct is separate from the compressed air duct. The outlet opening of the water duct is positioned close to the outlet opening of the compressed air duct.

A nucleation nozzle for forming freezing nuclei for devices for making artificial snow, starting from a jet of pressurised liquid, comprising a compressed air duct having an inlet opening and an outlet opening. A first stretch of the compressed air duct has a cross section which decreases in the flow direction of the compressed air, from the inlet opening to the outlet opening. The first stretch is followed by a second stretch having a cross section which increases in the flow direction of the compressed air from the inlet opening to the outlet opening. There is provided at least one water duct having an inlet opening and an outlet opening. The water duct is separate from the compressed air duct. The outlet opening of the water duct is positioned close to the outlet opening of the compressed air duct.

A mister apparatus includes a portable mister body having an air inlet and an air outlet, a fan configured to draw air in through the air inlet and force the air out the air outlet, a reservoir configured to contain a liquid, the reservoir having a reservoir outlet, a liquid outlet, the liquid outlet being disposed adjacent to or downstream of the air outlet, and a pump in fluid communication with the reservoir. The pump is operable to move the liquid from the reservoir and out of the liquid outlet such that the liquid exiting the liquid outlet enters into the air exiting the air outlet to form a mist.